RU2339390C1 - Method for obtaining of water extraction and shelf fungus polyphenolums possessing antioxidatic activity - Google Patents

Abstract

FIELD: medicine, pharmacology.

SUBSTANCE: invention concerns pharmaceutical and cosmetic industry. Perform water extraction of shelf fungus; treat an extract with chloroform or ligroin in stages, at temperature of 34°C - 36°C within 1.0-1.5 hours. Treat the extract at a parity extract: chloroform 1:1 with obtaining of emulsive extraction and water extraction "1", adding to it a hydrochloric acid to pH 2.0 and obtaining polyphenol "1", then from emulsive extraction separate chloroform, obtain water extraction "2" adding to it a hydrochloric acid to pH 2.0 and obtain polyphenol "2". The extract can be processed at a parity extract: ligroin 1:2 with obtaining of petrolium extraction and water extraction "3" adding to it a hydrochloric acid to pH 2.0 and obtaing Polyphenolum "3". At addition of equal volume of ethanol to the emulsive extraction obtain polyphenol "4". The invention allows realizing the specified appointment.

EFFECT: obtaining of water extraction and polyphenolums of shelf fungus, possessing antioxidatic activity.

4 cl, 3 ex, 2 tbl

Description

The invention relates to the pharmaceutical and cosmetic industries and for the production of drugs and cosmetics. The invention can be used to obtain aqueous extracts and polyphenols from chaga, for the development and manufacture on their basis of biologically active and medicinal products used for the treatment of gastrointestinal diseases, cancer of various etiologies, capillary-repairing and improving cerebral blood circulation, immunomodulators, and also wound healing funds, including funds that restore the skin after burns, frostbite, radiation and traumatic effects.

A known method for determining the integral antioxidant capacity of biological fluids (patent No. 2253114, IPC ⁷ G01N 33/48, authors Pogoreltsev VI, Ziyatdinova GK, Budnikov GK Patent holder Kazan State Medical University).

A known method of obtaining funds with antioxidant activity (patent No. 2203077, IPC ⁷ A61K 35/78, A61P 39/06, authors Ermilova E.V., Krasnov E.A., Pisareva S.I., Kadirova T.V., applicant Siberian State Medical University).

The disadvantage is the low antioxidant activity.

The prototype is a method of obtaining an extract of abortion substances (patent No. 651655, Mcl ² A61K 31/78), the authors Jose Luis Mateos, Luis Noriega (Mexico), Richard Hüttenmann, Ramesh Canogia, Michael Vochter (USA), the foreign company Ortho Pharmaceutical Corpareis (USA)). The essence of this method is that water extraction of plant leaves is carried out, then the extract is treated with an organic solvent, for example, chloroform, ether, etc., treated with alkalized water, followed by chromatography, elution with a mixture of polar and non-polar solvent, removal of organic solvents, chromatography, elution with non-polar organic solvent and concentration.

The disadvantage is the low antioxidant activity.

The objective of the invention is to obtain aqueous extracts and polyphenols with antioxidant activity.

The task is carried out by water extraction of chaga, the extract is treated with an organic solvent, for example chloroform or ether, according to the invention, the extract is treated with petroleum ether, the extract is treated with an organic solvent in stages, at a temperature of 34 - 36 ° C for 1.0-1.5 hours, and the extract is treated with an extract: chloroform ratio of 1: 1 to obtain an emulsion extraction and an aqueous extraction of “1”, to which hydrochloric acid is added to a pH of 2.0 and polyphenol “1” is obtained, then from emulsion and the chlorine forms are distilled off, an aqueous extraction of “2” is obtained, to which hydrochloric acid is added to a pH of 2.0 and polyphenol “2” is obtained, the extract being treated with an extract: petroleum ether ratio of 1: 2 to obtain a petroleum extraction and an aqueous extraction of “3” to which hydrochloric acid is also added to a pH of 2.0 and polyphenol “3” is obtained, whereby an equal volume of ethanol is added to the emulsion recovery, polyphenol “4” is obtained.

A certain amount of raw chaga is extracted with water, an extract is obtained, which is treated with a certain amount of an organic solvent - chloroform or petroleum ether, in several successive stages with stirring for a certain time, which are carried out at a temperature of 34 - 36 ° С, with the separation of the obtained extracts, combining each isolated extraction and isolation of polyphenols from aqueous extracts with a 25% hydrochloric acid solution to a pH of 2.0-2.5, and from emulsion extraction by treating it with equal to emom ethyl alcohol, with the determination of antioxidant activity of aqueous extracts of polyphenols and the method (patent №2253114, IPC ⁷ G01N 33/48, authors Pogoreltsev VI Ziyatdinova GK, GK BUDNIKOV Patentee Kazan State Medical University) .

Example 1. An aqueous extract of chaga, obtained from 10 g of raw material, is extracted with 525 ml of chloroform. The extraction is carried out in 7 stages, using the ratio of extract: chloroform 1: 1, with stirring and a temperature of 35 ± 1 ° C for 1.0-1.5 hours, at each stage receive emulsion extraction and water extraction of "1".

The emulsion and aqueous extracts obtained at each stage are combined.

Chloroform is distilled off from the emulsion extracts, and an aqueous extraction of “2” is obtained.

25% hydrochloric acid solution is poured to aqueous extraction “1” to a pH of 2.0–2.5, and 0.55 g of a precipitate of polyphenol “1” is obtained, which is 5.5% by weight of the feedstock and 99.70% by weight relative to the dry residue of water extraction "1".

A 25% solution of hydrochloric acid is poured to aqueous extraction “2” to a pH of 2.0-2.5, 0.59 g of a precipitate of polyphenol “2” is obtained, which is 5.93% by weight of the feedstock and 55.14% by ratio to the dry residue of water extraction "2".

Example 2. An aqueous extract of chaga, obtained from 10 g of raw material, is extracted with 1.0 l of petroleum ether. The extraction is carried out in 14 stages, using the ratio of extract: petroleum ether 1: 2 with stirring and a temperature of 35 ± 1 ° C for 1.0-1.5 hours, at each stage receive petroleum and water extraction "3".

The petroleum and aqueous extracts obtained at each stage are combined.

Hydrochloric acid was added to aqueous extraction “3” to pH 2.0 to obtain polyphenol “3”, the content of which is 1.51 g, which is 15.1% by weight of the feedstock and 80.32% with respect to the dry residue of water extract "3".

Example 3. An aqueous extract of chaga, obtained from 10 g of raw materials, is extracted with 525 ml of chloroform. The extraction is carried out in 7 stages, using the ratio of extract: chloroform 1: 1, with stirring and a temperature of 35 ± 1 ° C for 1.0-1.5 hours, at each stage receive emulsion extraction and water extraction of "1".

The emulsion and aqueous extracts obtained at each stage are combined.

When an equal volume of ethyl alcohol is added to the resulting emulsion extracts, 1.17 g of a polyphenol “4” precipitate is obtained, which is 11.7% by weight of the feedstock and 94.35% with respect to the dry residue of the obtained emulsion extracts.

The antioxidant activity of the resulting aqueous extracts is shown in table 1, and the selected polyphenols are shown in table 2.

Table 1
The results of determining the antioxidant capacity of water extracts obtained on the basis of water extraction of chaga (p = 0.95) Object of study Antioxidant capacity (AOE), CL / ml S _r Chaga Water Extract (n = 5) 1.8 ± 0.1 0.05 Water extraction "1" (n = 5) 9.1 ± 0.1 0.01 Water extraction "2" (n = 5) 8.7 ± 0.1 0.01 Water extraction "3" (n = 5) 8.91 ± 0.09 0.01

table 2
The results of determining the antioxidant capacity of polyphenols obtained on the basis of aqueous extraction of chaga (p = 0.95) Object of study Antioxidant capacity, kCl / 100 g S _r Polyphenol (from chaga water extract) (n = 5) 27.5 ± 0.7 0.02 Polyphenol "1" (n = 5) 56 ± 4 0.06 Polyphenol "2" (n = 5) 29 ± 2 0.06 Polyphenol "3" (n = 5) 63 ± 4 0.05 Polyphenol "4" (n = 5) 33 ± 2 0.05

As can be seen from the data in table 1, the antioxidant activity of aqueous extracts obtained on the basis of the aqueous extract of chaga increases 4.8-5 times compared with the aqueous extract of chaga.

As can be seen from the data in Table 2, the antioxidant activity of polyphenols isolated from the aqueous extract of chaga is either at the level of the antioxidant activity of polyphenol isolated from the aqueous extract of chaga, or exceeds this activity by 2-2.3 times.

Thus, the aqueous extracts and polyphenols obtained by treating the aqueous extract of chaga with organic solvents, for example chloroform or petroleum ether, have higher antioxidant activity compared to the aqueous extract of chaga and, accordingly, the polyphenol isolated from it.

In addition, according to the invention, the spectrum of aqueous extracts and polyphenols based on an aqueous extract of chaga with high antioxidant activity is expanded, which can be used to develop various types of dietary supplements, drugs and cosmetics based on them.

According to the invention, an aqueous extract of chaga is obtained from the raw material. The chaga water extract is treated with an organic solvent, for example, chloroform or petroleum ether, to give emulsion and aqueous extracts. Polyphenols are isolated from the resulting emulsion and aqueous extracts. The resulting aqueous extracts and isolated polyphenols have high antioxidant activity.

These aqueous extracts and polyphenols are the basis for the development and production of dietary supplements, drugs and cosmetics with antiradical activity.

In previously known inventions, only the ethyl acetate layer is used to isolate the polyphenols. According to our invention, we obtain aqueous extracts and polyphenols having a higher antioxidant activity compared to the aqueous extract of chaga and, accordingly, the polyphenol isolated from it,

- the chaga water extract is treated with an organic solvent, for example, chloroform or petroleum ether, the extract is treated with an organic solvent in stages, at a temperature of 34 - 36 ° C for 1.0-1.5 hours,

- the extract is treated with an extract: chloroform ratio of 1: 1 to obtain an emulsion extraction and an aqueous extraction of “1”, to which hydrochloric acid is added to a pH of 2.0 and polyphenol “1” is obtained, then chloroform is distilled off from the emulsion extraction, an aqueous extraction of “ 2 ", in which hydrochloric acid is added to a pH of 2.0 and polyphenol" 2 "is obtained,

- the extract is treated with the ratio of extract: petroleum ether 1: 2 to obtain petroleum extraction and aqueous extraction of "3", to which hydrochloric acid is also added to a pH of 2.0 and get polyphenol "3",

- when an equal volume of ethanol is added to the emulsion recovery, polyphenol “4” is obtained.

Then, aqueous extracts and polyphenols, obtained on the basis of water extracts of chaga, are used for the further development and production of biologically active additives, drugs and cosmetics.

Claims (4)

1. A method of obtaining aqueous extracts and chaga polyphenols with antioxidant activity, including water extraction of chaga, treatment of the extract with chloroform or petroleum ether in stages at a temperature of 34-36 ° C for 1.0-1.5 hours to obtain emulsion extraction and water extraction to which hydrochloric acid is added to pH 2 and polyphenol is obtained. 2. The method according to claim 1, comprising treating the extract with chloroform at a ratio of 1: 1 to obtain an emulsion extraction and an aqueous extraction of “1”, to which hydrochloric acid is added to pH 2 and polyphenol “1” is obtained, then chloroform is distilled from the emulsion extraction and an aqueous extraction of “2” is obtained in which hydrochloric acid is added to pH 2 and polyphenol “2” is obtained. 3. The method according to claim 1, comprising treating the extract with an extract: petroleum ether ratio of 1: 2 to obtain a petroleum extraction and an aqueous extraction of “3”, to which hydrochloric acid is added to a pH of 2.0, and polyphenol “3” is obtained. 4. The method according to claim 1, comprising adding an equal volume of ethanol to the emulsion recovery to obtain polyphenol "4".